AbstractWe propose a mechanism of restricted non-determinism in logical languages that uses a so-called symmetry-based choice operator whose application is restricted only on symmetric elements. Based on this mechanism, we define a logical language that is in PTIME but strictly more expressive than fixed-point logic with counting. This language is based, on the one hand, on an extension of the inflationary fixed-point logic with a choice operator, called specified symmetry choice, and, on the other hand, on an introduction of a so-called logical reduction operator, which when added to the above extension of fixpoint logic, allows us to increase the expressive power
We consider the problem of giving a fixpoint semantics for a parallel and non-deterministic programm...
We introduce fixpoint definitions, a rule-based reformulation of fixpoint constructs. The logic FO(F...
International audienceGuardedness restrictions are one of the principal means to obtain decidable lo...
AbstractWe propose a mechanism of restricted non-determinism in logical languages that uses a so-cal...
. In this paper, symmetry-based choice mechanisms are exploited to compute deterministic queries. We...
AbstractThe variety of semantical approaches that have been invented for logic programs is quite bro...
Ordered logic is the theoretical foundation of the LOCO programing language [9] which combines the d...
The variety of semantical approaches that have been invented for logic programs is quite broad, draw...
AbstractThis paper introduces nondeterminism into logic programs with negation by associating functi...
AbstractWe present a fixpoint semantics for disjunctive logic programs. We extend the concept of the...
AbstractThe alternating fixpoint of a logic program with negation is defined constructively. The und...
International audienceWe look at characterizing which formulas are expressible in rich decidable log...
The refinement calculus for logic programs consists of a wide-spectrum language and a notion of refi...
AbstractThe refinement calculus for logic programs consists of a wide-spectrum language and a notion...
AbstractNondeterministic extensions are needed in logic-based languages, such as first-order relatio...
We consider the problem of giving a fixpoint semantics for a parallel and non-deterministic programm...
We introduce fixpoint definitions, a rule-based reformulation of fixpoint constructs. The logic FO(F...
International audienceGuardedness restrictions are one of the principal means to obtain decidable lo...
AbstractWe propose a mechanism of restricted non-determinism in logical languages that uses a so-cal...
. In this paper, symmetry-based choice mechanisms are exploited to compute deterministic queries. We...
AbstractThe variety of semantical approaches that have been invented for logic programs is quite bro...
Ordered logic is the theoretical foundation of the LOCO programing language [9] which combines the d...
The variety of semantical approaches that have been invented for logic programs is quite broad, draw...
AbstractThis paper introduces nondeterminism into logic programs with negation by associating functi...
AbstractWe present a fixpoint semantics for disjunctive logic programs. We extend the concept of the...
AbstractThe alternating fixpoint of a logic program with negation is defined constructively. The und...
International audienceWe look at characterizing which formulas are expressible in rich decidable log...
The refinement calculus for logic programs consists of a wide-spectrum language and a notion of refi...
AbstractThe refinement calculus for logic programs consists of a wide-spectrum language and a notion...
AbstractNondeterministic extensions are needed in logic-based languages, such as first-order relatio...
We consider the problem of giving a fixpoint semantics for a parallel and non-deterministic programm...
We introduce fixpoint definitions, a rule-based reformulation of fixpoint constructs. The logic FO(F...
International audienceGuardedness restrictions are one of the principal means to obtain decidable lo...